Nuclear Engineering and Technology

Korean Nuclear Society (한국원자력학회)
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IDENTIFICATION OF HUMAN-INDUCED INITIATING EVENTS IN THE LOW POWER AND SHUTDOWN OPERATION USING THE COMMISSION ERROR SEARCH AND ASSESSMENT METHOD

  • KIM, YONGCHAN (KEPCO International Nuclear Graduate School (KINGS)) ;
  • KIM, JONGHYUN (KEPCO International Nuclear Graduate School (KINGS))
  • Received : 2014.10.10
  • Accepted : 2014.12.08
  • Published : 2015.03.25
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Abstract

Human-induced initiating events, also called Category B actions in human reliability analysis, are operator actions that may lead directly to initiating events. Most conventional probabilistic safety analyses typically assume that the frequency of initiating events also includes the probability of human-induced initiating events. However, some regulatory documents require Category B actions to be specifically analyzed and quantified in probabilistic safety analysis. An explicit modeling of Category B actions could also potentially lead to important insights into human performance in terms of safety. However, there is no standard procedure to identify Category B actions. This paper describes a systematic procedure to identify Category B actions for low power and shutdown conditions. The procedure includes several steps to determine operator actions that may lead to initiating events in the low power and shutdown stages. These steps are the selection of initiating events, the selection of systems or components, the screening of unlikely operating actions, and the quantification of initiating events. The procedure also provides the detailed instruction for each step, such as operator's action, information required, screening rules, and the outputs. Finally, the applicability of the suggested approach is also investigated by application to a plant example.

Keywords

References

  1. IAEA, Human Reliability Analysis in Probabilistic Safety Assessment for Nuclear Power Plants: A Safety Practice, IAEA Safety Series No. 50-P-10, International Atomic Energy Agency, 1995.
  2. M. Barrier, W. Lukas, D. Whitehead, A. Ramey-Smith, An Analysis of Operational Experience During Low Power and Shutdown and a Plan for Addressing Human Reliability Assessment Issues, NUREG/CR-6093, United States Nuclear Regulatory Commission, 1994.
  3. ENSI, Probabilistic Safety Analysis (PSA): Quality and Scope, ENSI-A05/e, Swiss Federal Nuclear Safety Inspectorate (ENSI), 2009.
  4. A. Kolaczkowski, J. Forester, E. Lois, S. Cooper, Good Practices for Implementing Human Reliability Analysis, NUREG-1792, United States Nuclear Regulatory Commission (US NRC), 2005.
  5. OPIS, Nuclear Event Evaluation Database, Korea Institute of Nuclear Safety, 2013.
  6. L. Podofillini, V.N. Dang, A Pilot Study for Errors of Commission in a Boiling Water Reactor, LEA 10-302, Paul Scherrer Institute, 2010.
  7. L. Podofillini, V.N. Dang, O. Nusbaumer, D. Dres, A pilot study for errors of commission for a boiling water reactor using the CESA method, Reliab. Eng. Syst. Saf. 109 (2013) 86-98. https://doi.org/10.1016/j.ress.2012.08.012
  8. T.L. Chu, Z. Musicki, P. Kohut, D. Bley, J. Yang, B. Holmes, G. Bozoki, C.J. Hsu, D.J. Diamond, D. Johnson, J. Lin, R.F. Su, V. Dang, D. Ilberg, S.M. Wong, N. Siu, Evaluation of Potential Severe Accidents During Low Power and Shutdown Operations at Surry, Unit 1, NUREG/CR-6144, United States Nuclear Regulatory Commission, 1994.
  9. C. Rochon, D. Finnicum, POS Definition and Transition Risk Modeling Guidance, ASME 2007 Power Conference, 2007, pp. 211-220.
  10. B. Reer, Outline of a Method for Quantifying Errors of Commission, LEA 09-302, Paul Scherrer Institute, 2009.
  11. IAEA, Probabilistic Safety Assessments of Nuclear Power Plants for Low Power and shutdown Modes, IAEA-TECDOC-1144, International Atomic Energy Agency, 2000.
  12. KHNP, Low Power and Shutdown Power Probabilistic Safety Assessment report for OPR 1000, 2010.

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